The uniform L-shaped bar pivots freely at point P of the slider, which moves along the...
The uniform L-shaped bar pivots freely at point P of the slider, which moves along the horizontal rod. Determine the steady-state value of the angle θ if (a) a = 0 and (b) a 0.39 g. For what value of a would the steady-state value of θ be zero? CT 2.0 b Answers: (b) a = 0.39g: θ = The steady-state value of θ will be zero when a =
The uniform bar OC of length L pivots freely about a horizontal
axis through O. If the spring of modulus k is unstretched when C is
coincident with A, determine the tension T required to hold the bar
in the 38° position shown. The diameter of the small pulley at D is
negligible.
The uniform bar OC of length L pivots freely about a horizontal axis through O. If the spring of modulus k is unstretched when C is coincident...
The sliders A and B are connected by a light
rigid bar of length l = 0.37 m and move with negligible
friction in the slots, both of which lie in a horizontal plane. For
the position where xA = 0.29 m, the velocity of
A is vA = 0.84 m/s to the right.
Determine the acceleration of each slider and the force in the bar
at this instant. The acceleration of A is positive if to
the right. The...
Problem3 A uniform slender rod of length L- 2 m and mass 3 ke rotates freely nodty soUARED S hinge at A. At t-0, the initial angle is θ-30 and the in rads/s in the counter-clockwise direction. (no friction) about itial angular velocity SQUARED is 5 What is the angular velocity (squared)d02 and angular acceleration α as functions of 0? a) b) What are the hinge reaction forces as functions of 0, (u? and a? c) What are the hinge...
QUESTION 3
An L-shaped rigid bar is attached with a pivot to a wall as
shown in the figure below. Assume that the L-shaped rigid bar is
massless. A mass of m = 9.1958 kg is attached to one end
of the rigid bar and the other end is supported by spring
k = 965.7083 N/m and damper c = 121.3183 Ns/m.
Determinate the steady state amplitude of mass m,
given
where F0 =417.8427 N, ω = 48.0443 rad/s, and...
A pendulum consists of a uniform rod of total mass m and length L that can pivot freely around one of its ends. The moment of inertia of such a rod around the pivot point is 1/3mL^2 The torque around the pivot point of the pendulum due to gravity is 1/2mgLsinθ, where θ is the angle the rod makes with the vertical and g is the acceleration due to gravity. a) Write down the equation of motion for the angle...
In the figure, a thin horizontal bar AB of negligible
weight and length L is hinged to a vertical wall at
A and supported at B by a thin wire BC
that makes an angle θ with the horizontal. A block of
weight W can be moved anywhere along the bar; its position
is defined by the distance x from the wall to its center
of mass. Find vertical components of the force on the bar from the
hinge at...
1. A uniform horizontal bar of length L = 2.0 m and weight 144 N is pinned to a vertical wall and supported by a thin wire that makes an angle of 0 = 150 with the horizontal. A mass M, with a weight of 302 N, can be moved anywhere along the bar. The wire can withstand a maximum tension of 573 N. What is the maximum possible distance from the wall at which mass M can be placed...
A thin rod of length L lies along the x-axis. It has a uniform linear charge distribution λ0. a) What is the value of the electric potential at a given point x located to the right of the rod? Take V=0 at infinity.b) What is the strength of the electric field at the point x?
Problem X4-2, MECH 3035, Spring 2019 Vertical force P= 250 Ib acts on end B of the L-shaped solid round bar as shown in the figure. The front view lies in the x-y plane as shown, and the top view lies in the x-z plane. The diameter of the bar is 2.00 in. Point A is on the top of the bar. a) Find the bending moment and torsion acting on the bar at the cross section where point A is located....